A rack assembly is provided for mounting solar modules over an underlying body. The rack assembly may include a plurality of rail structures that are arrangeable over the underlying body to form an overall perimeter for the rack assembly. One or more retention structures may be provided with the plu
A rack assembly is provided for mounting solar modules over an underlying body. The rack assembly may include a plurality of rail structures that are arrangeable over the underlying body to form an overall perimeter for the rack assembly. One or more retention structures may be provided with the plurality of rail structures, where each retention structure is configured to support one or more solar modules at a given height above the underlying body. At least some of the plurality of rail structures are adapted to enable individual rail structures to be sealed over the underlying body so as to constrain air flow underneath the solar modules. Additionally, at least one of (i) one or more of the rail structures, or (ii) the one or more retention structures are adjustable so as to adapt the rack assembly to accommodate solar modules of varying forms or dimensions.
대표청구항▼
1. An assembly on which an array of solar modules are mounted on an inclined surface of an underlying body, the assembly comprising: a plurality of rail structures that are arrangeable over the underlying body to form an overall perimeter for the assembly, the plurality of rail structures being exte
1. An assembly on which an array of solar modules are mounted on an inclined surface of an underlying body, the assembly comprising: a plurality of rail structures that are arrangeable over the underlying body to form an overall perimeter for the assembly, the plurality of rail structures being extendable along a gradient of the incline to provide an up-gradient perimeter and a down-gradient perimeter;one or more retention structures provided with the plurality of rail structures, wherein the retention structures are configured to support one or more of the plurality of solar modules at a given height above the underlying body;wherein at least some of the plurality of rail structures each include a flashing component that extends to the underlying body, wherein the plurality of rail structures and the flashing component combine to provide an open length along the down-gradient perimeter of the array, so as to enable air flow to enter a space formed under the array by the plurality of rail members, the air flow being constrained underneath the one or more solar modules; andwherein at least one of (i) one or more of the rail structures, or (ii) the one or more retention structures are adjustable so as to adapt the assembly to accommodate solar modules of varying forms or dimensions. 2. The assembly of claim 1, further comprising one or more coupling structures, wherein each of the one or more coupling structures enables at least a portion of one or more of the rail structures to be sealed over the underlying body. 3. The assembly of claim 1, wherein the flashing component of at least one of the plurality of rail structures includes an underlying component that extends into or against the underlying body. 4. The assembly of claim 1, wherein the flashing component of at least one of the plurality of rail structures includes an overlaying component that extends over the underlying flashing component. 5. The assembly of claim 1, further comprising one or more strut runners that extend directly over the underlying body and support the plurality of rail structures. 6. The assembly of claim 5, wherein at least one of (i) the one or more rail structures, or (ii) the one or more strut runners are adjustable when mounted onto the underlying body so as to enable the assembly to be flexibly fitted onto the underlying body. 7. The assembly of claim 1, further comprising a compression mechanism that is manipulated to compress the retention structures in order to cause the retention structures to grip a corresponding solar module and to provide the corresponding module in a fixed position. 8. An assembly for mounting an array of solar modules on an inclined surface of an underlying body, wherein the assembly is installed over the underlying body and comprises: a plurality of rail structures that are arranged to form an overall perimeter for the assembly, the plurality of rail structures being extendable along a gradient of the incline to provide an up-gradient perimeter and a down-gradient perimeter;one or more retention structures provided with the plurality of rail structures to support one or more of the plurality of solar modules mounted thereon at a given height over the underlying body; anda channel that constrains air flow, the channel being formed at least in part by a flashing component included in each of the plurality of rail structures along the down-gradient perimeter of the array so as to enable the air flow to enter a space formed under the array by the plurality of rail members, the channel occupying at least a portion of the given height separating the one or more solar modules from the underlying structure. 9. The assembly of claim 8, wherein the channel is formed at least in part by at least some of the plurality of rail structures, and wherein the channel includes an opening for the exchange of air with an environment of the assembly; and wherein the channel is oriented to have one or more openings to receive airflow entering from at least one or more of the openings. 10. The assembly of claim 8, wherein at least one of (i) one or more of the rail structures, or (ii) the one or more retention structures are adjustable so as to adapt the assembly to accommodate solar modules of varying forms or dimensions. 11. The assembly of claim 8, further comprising one or more sealing features provided with the plurality of rail structures, wherein the one or more sealing features enable the individual rail structure to be sealed over the underlying body to constrain the airflow so as to form at least a portion of the channel. 12. The assembly of claim 8, wherein the flashing component forms at least a part of the channel and includes an underlying component that extends into or against the underlying body. 13. The assembly of claim 8, wherein the flashing component forms at least a part of the channel and includes an overlaying component that extends over the underlying flashing component. 14. The assembly of claim 8, further comprising one or more strut runners that extend directly over the underlying body and support the plurality of rail structures. 15. The assembly of claim 14, wherein at least one of (i) the one or more rail structures, or (ii) the one or more strut runners are adjustable when mounted onto the underlying body so as to enable the assembly to be flexibly fitted onto the underlying body. 16. The assembly of claim 11, wherein an overall perimeter of the assembly is rectangular, and wherein a portion of the overall perimeter is sealed with the underlying body and includes a majority of three lengths of the rectangle, and wherein the opening is provided at a remaining portion of the overall perimeter. 17. The assembly of claim 8, further comprising a compression mechanism that is manipulated to compress the retention structures in order to cause the retention structures to grip a corresponding solar module and to provide the corresponding module in a fixed position. 18. The assembly of claim 17, wherein one or more of the plurality of rail structures include an interior surface from which one or more corresponding retention structures are provided, and wherein each of the one or more rail structures is provided a shim plate on an exterior surface that forms the portion of the overall perimeter so as to support that rail structure when compressed by the compression mechanism.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (44)
Dalacu Nick,CAX, Array of photovoltaic modules for an integrated solar power collector system.
Makita, Hidehisa; Fukae, Kimitoshi; Fujisaki, Tatsuo, Fixing member, a solar cell module array using said fixing member, and a method for installing a solar cell module or a roofing member using said fixing member.
Megregian Richard (Farmington Hills MI) Van Hout James E. (Auburn Hills MI) Latimer ; III John S. (Bloomfield Hills MI), Grounding washer and arrangements for conductive hinge joints.
Schwenk Hans M. (Straubenhardt DEX) Gnther Hans-Ulrich (Pfinztal DEX) Joist Michael (Gaggenau DEX), Mechanical and electrical connection between an extruded metal profile and a cast metal member.
Leung Jimmy Che-Kin ; Eastman Scott A. ; Hurst Douglas J., Minimal intrusion EMI shielding clip to maintain electrical contact between two parallel surfaces.
Merrin William R. (277 N. Creek Dr. San Jose CA 95139) Steele Michael R. (974 Nevada Ave. San Jose CA 95125), Watertight system for mounting equipment on roof.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.